Fast modulation of visual perception by basal forebrain cholinergic neurons
Lucas Pinto,Michael J. Goard,Michael J. Goard,Daniel Estandian,Min Xu,Alex C. Kwan,Seung-Hee Lee,Thomas C. Harrison,Guoping Feng,Yang Dan +9 more
TLDR
It is shown that basal forebrain cholinergic neurons rapidly regulate cortical activity and visual perception in awake, behaving mice, and optogenetic activation of the cholinergy neurons or their V1 axon terminals improved performance of a visual discrimination task on a trial-by-trial basis.Abstract:
The basal forebrain provides the primary source of cholinergic input to the cortex, and it plays a crucial role in promoting wakefulness and arousal. However, whether rapid changes in basal forebrain neuron spiking in awake animals can dynamically influence sensory perception is unclear. Here we show that basal forebrain cholinergic neurons rapidly regulate cortical activity and visual perception in awake, behaving mice. Optogenetic activation of the cholinergic neurons or their V1 axon terminals improved performance of a visual discrimination task on a trial-by-trial basis. In V1, basal forebrain activation enhanced visual responses and desynchronized neuronal spiking, which could partly account for the behavioral improvement. Conversely, optogenetic basal forebrain inactivation decreased behavioral performance, synchronized cortical activity and impaired visual responses, indicating the importance of cholinergic activity in normal visual processing. These results underscore the causal role of basal forebrain cholinergic neurons in fast, bidirectional modulation of cortical processing and sensory perception.read more
Citations
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Journal ArticleDOI
Waking State: Rapid Variations Modulate Neural and Behavioral Responses.
Matthew J. McGinley,Martin Vinck,Jacob Reimer,Renata Batista-Brito,Edward Zagha,Cathryn R. Cadwell,Andreas S. Tolias,Jessica A. Cardin,David A. McCormick +8 more
TL;DR: By taking fluctuations in state into account, neural response (co)variability is significantly reduced, revealing the brain to be more reliable and predictable than previously thought.
Journal ArticleDOI
Arousal and Locomotion Make Distinct Contributions to Cortical Activity Patterns and Visual Encoding
TL;DR: These findings suggest complementary roles of arousal and locomotion in promoting functional flexibility in cortical circuits and that arousal suppressed spontaneous firing and strongly altered the temporal patterning of population activity.
Journal ArticleDOI
Pupil fluctuations track rapid changes in adrenergic and cholinergic activity in cortex.
Jacob Reimer,Matthew J. McGinley,Matthew J. McGinley,Yang Liu,Charles Rodenkirch,Qi Wang,David A. McCormick,Andreas S. Tolias,Andreas S. Tolias +8 more
TL;DR: It is demonstrated that rapid variations in cortical state during wakefulness are highly correlated with fluctuations in the activity of corticopetal noradrenergic and cholinergic projections.
Journal ArticleDOI
Pupil Fluctuations Track Fast Switching of Cortical States during Quiet Wakefulness
Jacob Reimer,Emmanouil Froudarakis,Cathryn R. Cadwell,Dimitri Yatsenko,George H. Denfield,Andreas S. Tolias,Andreas S. Tolias +6 more
TL;DR: Pupillometry has been used to index attention and mental effort in humans, but the intracellular dynamics and differences in population activity underlying the quiescent periods between bouts of exploratory behaviors were previously unknown.
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Cortical Membrane Potential Signature of Optimal States for Sensory Signal Detection
TL;DR: A cortical physiological signature of the classically observed inverted-U relationship between task performance and arousal is revealed and it is revealed that optimal detection exhibits enhanced sensory-evoked responses and reduced background synaptic activity.
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